9/11/2023 0 Comments Motion parallaxYeom S, Stern A, Javidi B (2004) Compression of 3D color integral images. international conference on image processing, IEEE, Atlanta, October 2006, pp 513–516 264 compression scheme for 3D integral images. Olsson R, Sjostrom M, Xu Y (2006) A combined pre-processing and H. Zayed HH, Kishk SE, Ahmed HM (2012) 3D wavelets with SPIHT coding for integral imaging compression. Int J Signal Process Image Process Pattern Recognit 4(2):65–78 Kishk S, Ahmed HEM, Helmy H (2011) Integral images compression using discrete wavelets and PCA. J Disp Technol 3(3):321–325Īggoun A (2011) Compression of 3D integral images using 3D wavelet transform. In: Sixth international conference on image processing and its applications, IET, Dublin, January 1997, pp 32–35Įlharar E, Stern A, Hadar O, Javidi B (2007) A hybrid compression method for integral images using discrete wavelet transform and discrete cosine transform. ICASSP 1997 Proceedings, vol. 4, IEEE, Nagoya, August 1997, pp 2945–2947įorman M, Aggoun A (1997) Quantisation strategies for 3D-DCT-based compression of full parallax 3D images. international conference on acoustics, speech, and signal processing. ICASSP 2006 Proceedings, vol. 2, IEEE, Toulouse, May 2006, pp II–IIįorman MC, Aggoun A, McCormick M (1997) A novel coding scheme for full parallax 3D-TV pictures. international conference on acoustics, speech and signal processing. In: Fifth international conference on image processing and its applications, IET, Edinburgh, July 1995, pp 584–588Īggoun A (2006) A 3D DCT compression algorithm for omnidirectional integral images. In: Thesis to obtain the Master of Science Degreeįorman M, Aggoun A, McCormick M (1995) Compression of integral 3D TV pictures. Lino JFO (2013) 2D image rendering for 3D holoscopic content using disparity-assisted patch blending. Martinez-Cuenca R, Saavedra G, Martinez-Corral M, Javidi B (2009) Progress in 3-D multiperspective display by integral imaging. J Vis Commun Image Represent 21(5):586–594, 2010Īrai J, Kawai H, Okano F (2006) Microlens arrays for integral imaging system. Yendo T, Fujii T, Tanimoto M, Panahpour Tehrani M (2010) The Seelinder: Cylindrical 3D display viewable from 360 degrees. In: International conference on 3D systems and applications, vol 1, Osaka, June 2013 Iwasawa S, Kawakita M, Inoue N (2013) REI: an automultiscopic projection display. Georgiev T, Lumsdaine A (2010) Focused plenoptic camera and rendering. Lippmann G (1908) Epreuves reversibles donnant la sensation du relief. In: International Organisation for Standardisation. Tehrani MP, Senoh T, Okui M, Yamamoto K, Inoue N, Fujii T (2013) Introduction of super multiview video systems for requirement discussion. Tehrani MP, Senoh T, Okui M, Yamamoto K, Inoue N, Fujii T (2013) Multiple aspects. Indiana University and Adobe Systems, Tech. Lumsdaine A, Georgiev T (2008) Full resolution lightfield rendering. Computational models of visual processing, vol 1. ISO/IEC JTC1/SC29/WG11Īdelson EH, Bergen JR (1991) The plenoptic function and the elements of early vision. In: International organisation for standardisation. Tehrani MP, Senoh T, Okui M, Yamamoto K, Inoue N, Fujii T (2013) Use cases and application scenarios for super multiview video and free-navigation. This process is experimental and the keywords may be updated as the learning algorithm improves.ĭufaux F, Pesquet-Popescu B, Cagnazzo M (2013) Emerging technologies for 3D video: content creation, coding, transmission and rendering. These keywords were added by machine and not by the authors. Neighboring Block Disparity Vector (NBDV) and Inter-View Motion Prediction (IVMP) coding tools are further improved to efficiently exploit coding structures in two dimensions, with rate reduction up to 4.2 % with respect to the reference 3D-HEVC encoder. The new structure provides a rate reduction (for the same quality) up to 29.1 % when compared to a basic anchor structure. Finally, several coding schemes are compared and a coding structure that exploits inter-view correlations in both horizontal and vertical directions is proposed. Then it provides an overview of state-of-the-art methods for full parallax 3D content compression. This chapter first describes integral imaging and SMV content, acquisition, and display. However the large amount of data required is challenging and implies a need for new efficient coding technologies. Integral imaging and Super Multi-View video (SMV) are 3D technologies that allow creating a light-field representation of a scene with a smooth full motion parallax (i.e., in horizontal and vertical directions). Motion parallax is a key cue in the perception of the depth that current 3D stereoscopy and auto-stereoscopy technologies are not able to reproduce.
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